Effects of seasonal variation patterns on recurrent outbreaks in epidemic models
From MaRDI portal
Publication:2013248
DOI10.1016/j.jtbi.2012.09.038zbMath1368.92192OpenAlexW2004735995WikidataQ51312988 ScholiaQ51312988MaRDI QIDQ2013248
Gouhei Tanaka, Kazuyuki Aihara
Publication date: 17 August 2017
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2012.09.038
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Cites Work
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- Infinite subharmonic bifurcation in an SEIR epidemic model
- Bifurcation analysis on a hybrid systems model of intermittent hormonal therapy for prostate cancer
- Subharmonic bifurcation in an S-I-R epidemic model
- Deterministic and stochastic models for the seasonal variability of measles transmission
- Bifurcation analysis of periodic SEIR and SIR epidemic models
- The effect of cross-immunity and seasonal forcing in a multi-strain epidemic model
- External forcing of ecological and epidemiological systems: a resonance approach
- Stochastic amplification in an epidemic model with seasonal forcing
- Bifurcations in a mathematical model for circadian oscillations of clock genes
- Piecewise-smooth dynamical systems. Theory and applications
- The SIRC model and influenza A
- Bifurcation of switched nonlinear dynamical systems
- Directly Transmitted Infections Diseases: Control by Vaccination
- The Early Stage Behaviour of a Stochastic SIR Epidemic with Term-Time Forcing
- Time Series Modelling of Childhood Diseases: A Dynamical Systems Approach
- BIFURCATION STRUCTURES OF PERIOD-ADDING PHENOMENA IN AN OCEAN INTERNAL WAVE MODEL
- Seasonally forced disease dynamics explored as switching between attractors
